Litcius/Paper detail

Model-based computational precision medicine to develop combination therapies for autoimmune diseases

Emiko Desvaux, Audrey Aussy, Sandra Hubert, Florence Keime-Guibert, Alexia Blesius, Perrine Soret, Mickaël Guedj, Jacques-Olivier Pers, Laurence Laigle, Philippe Moingeon

2021Expert Review of Clinical Immunology22 citationsDOI

Abstract

Introduction The complex pathophysiology of autoimmune diseases (AIDs) is being progressively deciphered, providing evidence for a multiplicity of pro-inflammatory pathways underlying heterogeneous clinical phenotypes and disease evolution.Areas covered Treatment strategies involving drug combinations are emerging as a preferred option to achieve remission in a vast majority of patients affected by systemic AIDs. The design of appropriate drug combinations can benefit from AID modeling following a comprehensive multi-omics molecular profiling of patients combined with Artificial Intelligence (AI)-powered computational analyses. Such disease models support patient stratification in homogeneous subgroups, shed light on dysregulated pro-inflammatory pathways and yield hypotheses regarding potential therapeutic targets and candidate biomarkers to stratify and monitor patients during treatment. AID models inform the rational design of combination therapies interfering with independent pro-inflammatory pathways related to either one of five prominent immune compartments contributing to the pathophysiology of AIDs, i.e. pro-inflammatory signals originating from tissues, innate immune mechanisms, T lymphocyte activation, autoantibodies and B cell activation, as well as soluble mediators involved in immune cross-talk.Expert opinion The optimal management of AIDs in the future will rely upon rationally designed combination therapies, as a modality of a model-based Computational Precision Medicine taking into account the patients’ biological and clinical specificities.

Topics & Concepts

Precision medicineMedicineDiseaseAutoimmunityBioinformaticsImmune systemImmunologyComputational biologyAutoimmune diseaseDrug developmentAutoantibodyClinical trialImmunotherapyClinical phenotypeExpert opinionSystems biologyDrug discoveryIntensive care medicineDrugHomogeneousSystems medicineComplex diseasePersonalized medicineInnate immune systemComputational modelPhenotypeNeuroscienceTreatment modalityClinical study designProfiling (computer programming)BiomarkerPathophysiologyLymphocyteBiomarker discoveryHuman diseaseMechanism (biology)Monoclonal and Polyclonal Antibodies ResearchChronic Lymphocytic Leukemia ResearchCytokine Signaling Pathways and Interactions